Margaric acid, or heptadecanoic acid, is a saturated
fatty acid. Its molecular formula is CH3(CH2)15CO2H. Classified as an
odd-chain fatty acid, it occurs as a trace component of the fat and milkfat of
ruminants.[2]Salts and
esters of margaric acid are called heptadecanoates.
Its name is derived from the
Ancient Greek μάργαρος (márgar(on)), meaning "pearl(y)", due to its appearance.
Semiochemistry
For many species, margaric acid plays a role as a
semiochemical - specifically it possesses
pheromonic and
allomonic properties. Margaric acid has been identified in the subcaudal gland secretions of the
European badger (Meles meles)[3] and in the occipital gland secretions of male
Bactrian camels (Camelus bactrianus) where it is one of the many pheromonic chemicals responsible for aiding in the finding and selection of mates.[4]
Margaric acid is also found in the precloacal gland secretions of many reptiles belonging to the order
squamata, including the
common leopard gecko (Eublepharis macularius)[7] and the European viper (Vipera berus), where it is used for the identification of sexual partners.[8]
Unsaturated forms
Unsaturated derivatives of margaric acid are found in nature, although rarely. Unsaturation occurs at position 9 or both at 9 and 12 positions of the fatty chain giving heptadecenoic (C17:1) and heptadecadienoic (C17:2) acids, respectively. C17:1 cis-9 (ω-8) is found at trace amounts in
ruminant fats[9] and some varieties of
olive oils.[10] Minor amounts (< 1%) of C17:1 cis-10 and C17:2 cis-8,11 were detected in seed oil of
Portia tree (Thespesia populnea).[11]
Rarity in vegetable and animal fats
Margaric acid is rare in animals and vegetables.[12] In the 19th and early 20th centuries, however, the acid was often identified as a significant component of natural fats. Most likely, these were cases of misidentifying a
eutectic mixture of
palmitic and
stearic acids.[13]
^Ayorinde, F.; Wheeler, J. W.; Wemmer, C.; Murtaugh, J. (January 1982). "Volatile components of the occipital gland secretion of the bactrian camel (Camelus bactrianus)". Journal of Chemical Ecology. 8 (1): 177–183.
doi:
10.1007/bf00984014.
ISSN0098-0331.
PMID24414593.
S2CID21202532.
^Ayorinde, F.; Wheeler, J. W.; Wemmer, C.; Murtaugh, J. (January 1982). "Volatile components of the occipital gland secretion of the bactrian camel (Camelus bactrianus)". Journal of Chemical Ecology. 8 (1): 177–183.
doi:
10.1007/bf00984014.
ISSN0098-0331.
PMID24414593.
S2CID21202532.
^Mason, Robert T.; Gutzke, William H. N. (January 1990). "Sex recognition in the leopard gecko,Eublepharis macularius (Sauria: Gekkonidae) Possible mediation by skin-derived semiochemicals". Journal of Chemical Ecology. 16 (1): 27–36.
doi:
10.1007/bf01021265.
ISSN0098-0331.
PMID24264893.
S2CID28887051.
^Razakov, R. R.; Sadykov, A. S. (July 1986). "Study of complex mixtures of natural substances by the defocusing and dadi methods. VI. Components of the secretion of the pre-anal gland of some poisonous snakes". Chemistry of Natural Compounds. 22 (4): 392–394.
doi:
10.1007/bf00579807.
ISSN0009-3130.
S2CID24684170.